A rigid container initially contains only 0.25 mol of NH3 (g) in a 5.0 L volume. We introduce 0.20 mol of HCI (g) at 25 °C. a. Write the chemical equation for this reaction assuming that it forms one...
A rigid container initially contains only 0.25 mol of NH3 (g) in a 5.0 L volume. We introduce 0.20 mol of HCI (g) at 25 °C. a. Write the chemical equation for this reaction assuming that it forms one product. b. Calculate the final pressure in the container after the reaction in a. is complete If some of this product were added to water, what would happen to the pH of solution relative to pure water? c. Instead of the reaction above, some NH3 and Cr are reacted with Cu2+ to form an octahedral complex ion with a 1:1 stoichiometry of between the two types of ligands. Draw all possible isomers that can be formed for this species, labeling them with the type of isomer. d.
A rigid container initially contains only 0.25 mol of NH3 (g) in a 5.0 L volume. We introduce 0.20 mol of HCI (g) at 25 °C. a. Write the chemical equation for this reaction assuming that it forms one product. b. Calculate the final pressure in the container after the reaction in a. is complete If some of this product were added to water, what would happen to the pH of solution relative to pure water? c. Instead of the reaction above, some NH3 and Cr are reacted with Cu2+ to form an octahedral complex ion with a 1:1 stoichiometry of between the two types of ligands. Draw all possible isomers that can be formed for this species, labeling them with the type of isomer. d.